TW201541000A - Header pipe joint for transporting fluid - Google Patents

Abstract

To provide, in a header pipe joint for transporting fluid, a header pipe with improved workability with respect to setting the rotational angle of a branch part and fixing the angle thereof, and with improved fastening performance. A header pipe joint having multiple branch parts arranged in a row, with one or more of the branch parts (9) in the side wall of a tubular main pipe part (11), and with one end of the main pipe body (11) having an insertion aperture (4) and the other end of the main pipe body (11) having a receiving aperture (3) to which an insertion aperture (4) can be connected, and the receiving aperture (3) and the insertion aperture (4) having a mechanism for adjusting the angle of the branch parts (9).

Description

Water collecting pipe joint for conveying fluid

The present invention relates to a piping member for connecting a fluid conveying pipe, and more particularly to a water collecting pipe joint for distributing a fluid of water, a chemical liquid, or the like and distributing it from a main pipe to a branch pipe.

In the factory equipment or equipment, the hot water supply equipment, and the like, in order to distribute the fluid from the main pipe to the point of use or the like, it is necessary to have a water collecting pipe for distribution. In general, a water collecting pipe having a plurality of branch ports arranged side by side is produced by the following processing or the like: a plurality of T-shaped pipe joints are arranged side by side, or the side surface of the main pipe is opened and then more than the main pipe The tube of small diameter is then or fused to the opening.

In addition, in the prior art, a method of determining the angle of rotation of the branch port is also proposed. The angle is determined by providing irregularities in the receiving port and the insertion opening of the rear portion (see Patent Document 1).

[Previous Technical Literature] [Patent Document]

[Patent Document 1] JP-A-9-287676

However, in the conventional water collecting pipe manufacturing method, the operation time for the plurality of joints or pipes is long, and the fluid leakage may occur due to the subsequent defective portion of the subsequent portion, and the result is necessarily costly. More labor for inspection or repair. Further, in the above method, it is difficult to align the angles of the branch ports, which may cause an unfavorable factor such as the inability to connect the pipes during construction.

In addition, when the unevenness is provided in the receiving port and the insertion opening of the adhesive portion as in the case of the patent document 1, it is difficult to apply the adhesive to the uneven surface reliably, and There is a problem of leakage due to the increase in the area of the subsequent enlargement.

The present invention has been developed in view of the above problems of the prior art, and an object thereof is to provide a water collecting pipe joint for conveying a fluid, which is used for improving the setting of the rotation angle of the branching portion and the workability of the angular positioning, and improves Follow-up.

In a water collecting pipe joint having a plurality of branching portions, the first technical feature is that the tubular main pipe portion has one branch portion at least on the side wall, and has an insertion port portion at one end side of the main pipe portion, and the main pipe portion The other end side has a receiving opening that can be engaged with the insertion opening, and An angle adjusting mechanism having the branch opening in the receiving port portion and the insertion port portion is composed of at least one notch portion and at least one protruding portion.

According to a second aspect of the invention, the angle adjustment mechanism includes at least one of the notch portions provided at an end portion of the receiving port portion, and at least one of the protruding portions provided on the main body portion side of the insertion port portion composition.

According to a third aspect of the invention, the angle adjustment mechanism includes at least one of the notch portions on the side of the main pipe portion on the side of the insertion port, and at least one of the protrusions provided at an end portion of the receiving port portion. .

According to a fourth aspect of the invention, the projection portion is formed to have a substantially triangular shape or a distal end portion that is narrowed toward an end portion of the insertion opening portion that is joined thereto.

According to a fifth aspect of the invention, the notch portion has the same shape or a substantially square shape as the protrusion portion, and is engageable with the protrusion portion.

According to a sixth aspect of the invention, the receiving port portion is: a receiving port pipe portion; a receiving port guiding portion having an inner diameter that is larger in diameter than the receiving port pipe portion; and the aforementioned arrangement provided in the receiving port guiding portion a notch portion, wherein the insertion port portion is an insertion port guide portion that is inserted into the receiving port tube portion, and an insertion port guide portion that has an outer diameter that is larger in diameter than the insertion port tube portion, and is provided in the insertion port portion The protrusion is formed on the outer surface of the insertion port guide.

A seventh technical feature is that the receiving port has a setting In the protruding portion of the end portion of the receiving port portion, the insertion port portion is an insertion port tube portion, a stopper portion that expands in diameter in a diameter direction from an outer diameter of the insertion port tube portion, and is provided at the end portion The notch portion of the moving portion is formed.

An eighth technical feature is that the angle adjustment mechanism is provided in the branch portion.

The present invention achieves the above-described structure and can obtain the following excellent effects. The insertion opening portion and the receiving opening portion that are joined to each other do not have a complicated shape, and since the branch portions are integrally formed, the number of times of the subsequent steps and the subsequent portions can be reduced, and the number of working hours and the leakage can be reduced. The risk caused by the possibility, and can improve the continuity.

The angle adjustment mechanism can easily engage the rotation angle of the branch port, and the number of the notch portions can be arbitrarily set in advance in accordance with the desired rotation angle.

Since the protruding portion is formed to have a shape that is narrowed (sharp or sharp) toward the end of the insertion port to be joined thereto, when the water collecting pipes are joined to each other, the angle can be deviated even in a certain range. Fine-tune the angle of the divergence port to the desired angle.

1‧‧‧ gap

2‧‧‧ Receiving port guide

3‧‧‧ receiving port

4‧‧‧Insert mouth

5‧‧‧Chamfering

6‧‧‧Protruding

7‧‧‧Inlet guide

8‧‧‧Departure

9‧‧‧Differentiation Department

11‧‧ ‧ Department of Administration

12‧‧‧Next joint

13‧‧‧General cover

14‧‧‧Water collection joint

16‧‧‧Angle adjustment mechanism

17‧‧‧Insert mouth tube department

18‧‧‧ Receiving mouth tube department

Fig. 1 is a view showing a water collecting pipe disclosed in a first embodiment of the present invention. A perspective view of the joint.

Fig. 2 is a perspective view showing the water collection pipe joint disclosed in the first embodiment of the present invention as seen from a direction different from that of Fig. 1.

Fig. 3 is a perspective view showing an angle adjusting mechanism of the water collection pipe joint disclosed in the first embodiment of the present invention.

Fig. 4 is a cross-sectional view showing an example of a joined state of the water collection pipe joint disclosed in the first embodiment of the present invention.

Fig. 5 is a view showing a state in which the rotation angle of the branch portion of the water collection pipe joint disclosed in the first embodiment of the present invention is 0°, and Fig. 5(a) is a front view and Fig. 5(b) is a right side view. .

Fig. 6 is a view showing a state in which the rotation angle of the branch portion of the water collection pipe joint disclosed in the first embodiment of the present invention is 90°, and Fig. 6(a) is a front view and Fig. 6(b) is a right side view. .

Fig. 7 is a plan view showing a setting adjustment mechanism for a rotation angle of a branch portion of a water collection pipe joint according to the first embodiment of the present invention.

Fig. 8 is a perspective view showing an angle adjusting mechanism of a water collection pipe joint according to a second embodiment of the present invention.

Fig. 9 is a front elevational view showing a water collection pipe joint disclosed in a third embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings. 1 , 2, and 3 are one embodiment of a water collection pipe joint 14 disclosed in the present invention. Water collecting pipe joint 14 is hard It is made of polyvinyl chloride resin and is produced by injection molding. The water collecting pipe joint 14 has a branching portion 9 having at least one circular tubular receiving port or insertion opening perpendicular to the flow path axis of the water collecting pipe joint 14 on the side wall of the circular straight tubular main pipe portion 11 Further, it has a circular tubular insertion opening portion 4 integrally formed on one end side of the main pipe portion 11, and a circular tubular shape integrally formed on the other end side of the main pipe portion 11 and capable of being joined to the insertion opening portion 4. The receiving port portion 3 has an angle adjusting mechanism 16 having a branching portion 9 at the receiving port portion 3 and the insertion port portion 4.

As shown in FIG. 3, the angle adjusting mechanism 16 is provided with four notch portions 1 at the end portion of the receiving opening portion 3, and one protruding portion 6 is provided on the side of the main pipe portion 11 of the insertion opening portion 4. The protruding portion 6 is positioned in the same direction as the branching portion 9 with respect to the flow path axis, and the first notch portion 1 is positioned in the same direction as the branching portion 9 with respect to the flow path axis, and the flow is based on the same. A total of three planes are arranged every 90 degrees in a vertical plane. In the first embodiment, the end portion of the receiving opening portion 3 has the notch portion 1 and the projection portion 6 is provided on the side of the main tube portion 11 of the insertion opening portion 4. However, in the second embodiment, as shown in Fig. 8, The protrusion portion 6 is provided at the end of the receiving port portion 3, and the notch portion 1 is provided on the side of the main tube portion 11 of the insertion port portion 4.

Fig. 4 is a view showing an example of the joined state of the water collection pipe joint 14 disclosed in the present invention. The receiving port portion 3b of the water collecting pipe joint 14b is joined to the insertion port portion 4a of the water collecting pipe joint 14a (joining portion 12), and a universal cover having a receiving port is then joined to the insertion port portion 4b of the water collecting pipe joint 14b. 13. By increasing the connection of the water collection pipe joint 14 The number of roots can also generate more divergent parts. The bonding method of the bonding portion 12 may be performed by a heat fusion bonding machine or by fusion bonding using a solvent-based bonding material. Further, a rubber ring or an O-ring may be attached to the receiving port portion 3. In this case, it is necessary to prevent the detachment mechanism.

As shown in FIGS. 1 and 3, the receiving port portion 3 and the insertion port portion 4 are provided at both end portions of the water collection pipe joint 14. The receiving opening portion 3 and the insertion opening portion 4 are sized to have the same nominal diameter and are formed to be mutually engageable. The insertion length of the insertion opening portion 4 is a length that can be inserted into the receiving opening portion 3. The end surface of the insertion opening portion 4 is provided with a chamfered portion 5, and is formed in a shape that does not require chamfering work at the time of subsequent joining. Further, the branch portion 9 may be of any shape of a receiving port or an insertion port and has a sufficient insertion length. The size of the receiving port portion 3 and the insertion port portion 4 can be set to a size based on domestic and overseas specifications in addition to the JIS standard.

When the joining is performed as shown in Fig. 4, for example, the inner peripheral surface of the receiving port portion 3b of the water collecting pipe joint 14b and the outer peripheral surface of the insertion port portion 4a of the water collecting pipe joint 14a are uniformly coated with an adhesive, and the insertion port is further inserted. The portion 4a is inserted into the receiving opening portion 3b or the receiving opening portion 3b is inserted into the insertion opening portion 4a. Further, the bonding method is a TS bonding method, which is a widely used bonding method. The general outer cover 13 is joined to the end portion of the water collection pipe joint 14b as an example of the embodiment, and a general pipe joint conforming to the JIS standard may be followed, or an L-shaped head, a different-diameter pipe joint, a pipe elbow, and a bent pipe may be followed. , flanges, etc. can also be.

As shown in Fig. 3, the receiving port portion 3 is a receiving port tube portion 18 that is inserted into the insertion port tube portion 17 described later, and a receiving port guide whose inner diameter is larger in diameter than the receiving port tube portion 18. The lead portion 2 and the plurality of substantially quadrangular notch portions 1 provided at equal intervals on the outer circumference of the receiving port guide portion 2 are formed. Further, the insertion port portion 4 is an insertion port guide portion 17 that is inserted into the receiving port tube portion 18, an insertion port guide portion 7 whose outer diameter is larger in diameter than the insertion port tube portion 17, and is disposed at the insertion port guide. The substantially triangular projection 6 on the outer circumference of the guide portion 7 and the stopper portion 8 having an outer diameter that is larger in diameter than the insertion port guide portion 7 are formed. When the insertion opening portion 4 is inserted into the receiving opening portion 3 or the receiving opening portion 3 is inserted into the insertion opening portion 4, the insertion opening guiding portion 7 and the receiving opening guiding portion 2 are fitted to each other, and the notch portion The substantially triangular projections 6 that are reduced toward the notch portion 1 are fitted to each other. The shape of the protruding portion 6 is substantially triangular, but may be a shape that is reduced toward the notch portion 1 that is fitted to the protruding portion 6, and may be, for example, an arc shape or a table shape. The notch portion 1 may have a shape that can be fitted into the protruding portion 6, and may have a shape different from that of the protruding portion 6 as shown in Figs. 1, 2, and 3, or may be The same shape is also available. When the shape is different, the width of the widest portion of the protruding portion 6 and the width of the widest portion of the notch portion 1 are formed to be substantially the same.

The interval of the angular scale of the rotation direction of the branching portion 9 can be arbitrarily set by the number n of the notch portions 1 provided on the outer circumference of the receiving port guide portion 2. In the case of the fifth and sixth figures, the rotation angle of the branching portion 9 is set to a scale of 90°, and the rotation direction can be set. Into 0°, 90°, 180°, 270°, 4 values. Fig. 5 shows a state in which the branch portion 9 is constructed at the same angle (rotation angle is 0°), and Fig. 6 shows a state in which the branch portion 9 is shifted at a right angle (rotation angle of 90°). In the present invention, the rotation angle θ of the branch portion 9 is set to a minimum of 22.5°, and the number of rotation directions can be set to at most 16, and the angle can be adjusted to a desired angle by 16 stages. Further, the receiving port guide portion 2 and the insertion port guiding portion 7 are formed to be mutually engageable, and the length of the guide of the insertion port guiding portion 7 is set to 10 mm. When the length of the guide is 10 mm or less, the size of the protrusion portion 6 and the notch portion 1 is reduced, and the width of the adjustment angle is narrowed. Further, since the width of the notch portion is widened by 15 mm or more, the number of rotation directions is reduced. The direction, so the length of the guide is preferably 10mm~15mm. By providing a concave step on the receiving port guide 2 and providing a convex step in the insertion port guiding portion 7, it is possible to follow the general pipe joint based on JIS K6742 and JIS K6743.

When the water collection pipe joint 14 is subsequently joined, the end surface of the stopper portion 8 is inserted until the end surface of the contact port guide portion 2 is contacted, and a sufficient rear portion can be secured. The stopper portion 8 is disposed at the insertion port guide. The end portion (the side of the main tube portion 11) of the lead portion 7 has an outer diameter that is larger in diameter than the insertion port guide portion 7 and is formed to have substantially the same size as the receiving port portion.

As shown in Fig. 7 (a) to (b), the angle adjustment of the respective branch portions 9 of the two water collection pipe joints 14 is performed by inserting the insertion port portion into the receiving port portion at the time of joining. The outer periphery of the guiding portion 7 The outer side surface of the protrusion portion 6 is in contact with the corner portion of the notch portion 1 provided at the outer peripheral portion of the receiving port guide portion 2, whereby the desired angle can be adjusted even if a deviation of the rotation direction of at most ±8° occurs.

The number of the protrusions 6 needs to be at least one or more. Further, the number of the notch portions 1 is required to be at least one or more. The condition for carrying out the present invention does not require the number of the protrusions 6 and the notch portion 1 to be the same, and the angle adjustment mechanism 16 can be made to function as long as the same or the number of the notch portions 1 is larger than the number of the protrusions 6.

Next, a second embodiment of the present invention will be described with reference to Fig. 8. The same component symbols are used for the same configuration as the first embodiment. As shown in Fig. 8, a projection portion 6 is provided at an end portion of the receiving opening portion 3, and a notch portion 1 is provided at the stopper portion 8, to constitute an angle adjusting mechanism 16. The stopper portion 8 is formed to be larger than the outer diameter of the insertion port tube portion 17, and is formed to be the same size as the outer diameter of the receiving port portion 3. Therefore, unlike the first embodiment, the insertion port guide portion 7 is not required. The insertion port tube portion 17 is inserted into the receiving port portion 3, and the protrusion portion 6 is fitted to the notch portion 1, whereby the water collection tube joints 14 can be joined. Since the joining method is the same as that of the first embodiment, the description thereof is omitted.

Next, a third embodiment of the present invention will be described with reference to Fig. 9. According to a third embodiment of the present invention, as shown in Fig. 9, a substantially quadrangular notch portion 1 is provided in the branch portion 9 of the water collection pipe joint 14, and a substantially triangular projection portion 6 is provided in the branch pipe 19, and they are mutually Mating and joining. The shape of the branch portion 9 can be made the same as the shape of the receiving port portion 3, and can be made the same as the insertion port portion 4. The shape is joined to the branch pipe 19. Thereby, in the case where the branch pipe further has a branch pipe, the angle of the branch pipe of the branch pipe can also be adjusted to a desired angle.

The water collection pipe joint 14 is made of a hard polyvinyl chloride resin, but can be produced by injection molding an impact-resistant polyvinyl chloride resin or a heat-resistant polyvinyl chloride resin, and can be arbitrarily placed on the size and the branch of the main pipe. The size or number and the angle of rotation of the branching portion are set. Further, the material of the water collection pipe joint 14 is not only a polyolefin resin containing a polypropylene resin, but also a thermoplastic resin such as ABS or polyvinylidene chloride resin, a thermosetting resin, and a norbornene monomer. The molding material is injected as a reaction solution with a metathesis catalyst system. It can be produced by injection molding, compression molding, reaction injection molding, or the like of a raw material. Therefore, producing a water collecting pipe as compared with processing a pipe or a joint improves productivity. Further, since the water collecting pipe system is integrally formed by injection molding and there is no water collecting pipe at the joint portion, it is possible to provide a water collecting pipe having high watertightness.

1‧‧‧ gap

3‧‧‧ receiving port

4‧‧‧Insert mouth

5‧‧‧Chamfering

6‧‧‧Protruding

7‧‧‧Inlet guide

8‧‧‧Departure

9‧‧‧Differentiation Department

11‧‧ ‧ Department of Administration

14‧‧‧Water collection joint

17‧‧‧Insert mouth tube department

Claims (9)

A water collecting pipe joint for conveying a fluid, wherein in the water collecting pipe joint having a plurality of branch portions, the tubular main pipe portion has at least one branch portion at a side wall, and has an insertion port at one end side of the main pipe portion a receiving port portion that is engageable with the insertion port portion on the other end side of the main pipe portion, and an angle adjusting mechanism that has the branch portion at the receiving port portion and the insertion port portion, the angle adjusting mechanism being at least It consists of one notch and at least one protrusion. The water collection pipe joint for conveying a fluid according to the first aspect of the invention, wherein the angle adjustment mechanism is provided by at least one of the notch portions provided at an end portion of the receiving port portion, and at the insertion port At least one of the protrusions on the side of the main tube portion of the portion. The water collecting pipe joint for conveying a fluid according to the first aspect of the invention, wherein the angle adjusting mechanism is provided with at least one notch portion on the side of the main pipe portion on which the insertion port portion is provided, and is provided in the receiving portion At least one of the aforementioned protrusions at the end of the mouth is composed of. The water collection pipe joint for conveying a fluid according to the second or third aspect of the invention, wherein the projection is configured to be a substantially triangular shape or a front end portion which is reduced toward an end portion of the insertion opening portion to be joined thereto. shape. The water collection pipe joint for conveying a fluid according to the second aspect or the third aspect of the invention, wherein the notch portion has the same shape or a substantially square shape as the protrusion portion, and is engageable with the protrusion portion. The transport fluid as described in item 2 or 3 of the patent application scope In the water collection pipe joint, the projection portion is formed in a substantially triangular shape or a distal end portion which is narrowed toward an end portion of the insertion opening portion to be joined thereto, and the notch portion has the same shape or substantially the same shape as the projection portion. It has a quadrangular shape and can be fitted to the protruding portion. The water collecting pipe joint for conveying a fluid according to the first or second aspect of the invention, wherein the receiving port portion is formed by a receiving port pipe portion and having an inner diameter larger than a diameter of the receiving port pipe portion. The receiving port guiding portion and the notch portion provided in the receiving port guiding portion, wherein the insertion port portion is: an insertion port tube portion inserted into the receiving port tube portion, and an outer diameter of the insertion port tube The portion further includes an insertion port guide portion that expands in diameter in the diameter direction, and the protrusion portion that is provided on the outer surface of the insertion port guide portion. The water collecting pipe joint for conveying a fluid according to the first or third aspect of the invention, wherein the receiving port portion has a protruding portion provided at an end portion of the receiving port portion, and the insertion port portion is The insertion port tube portion is formed by a stopper portion that expands in diameter in a diameter direction from an outer diameter of the insertion port tube portion, and a notch portion that is provided in the stopper portion. The water collection pipe joint for conveying a fluid according to any one of claims 1 to 3, wherein the angle portion has the angle adjustment mechanism.